Affiliation:
1. Mining College, Guizhou University, Guiyang 550025, China
Abstract
This study investigates the impact of cyclic tunnel blasting on adjacent bridge structures under construction. Monitoring vibration velocities of the bridge deck, piers, and middle column adjacent to the Zhanma Tian Tunnel, a three-dimensional numerical model was developed using FLAC3D software, utilizing blasting vibration test data from the Zhanma Tian Tunnel project in Guizhou. Results show that, as the distance between the bridge and tunnel increases, vibration velocity at the bridge deck decreases more rapidly compared to the base of the pier. Peak vibration velocities recorded were 0.235 cm/s for the bridge deck, 0.081 cm/s for the pier base, and a predicted 0.209 cm/s for the middle column. The impact order from blasting vibrations on the bridge structure is: pier base, middle column, bridge deck. Peak vibration velocity induced by blasting ranged between 0.05 and 0.25 cm/s, within safe limits of bridge material strength. Eight daily blasting cycles do not compromise the safety of bridge structures located 43 m away.
Reference30 articles.
1. In situ observation of spalling process of intact rock mass at large cavern excavation;Liu;Eng. Geol.,2017
2. Numerical analysis of the failure process around a circular opening in rock;Wang;Comput. Geotech.,2012
3. Zhang, H., Chen, L., Chen, S., Sun, J., and Yang, J. (2018). The spatiotemporal distribution law of microseismic events and rockburst characteristics of the deeply buried tunnel group. Energies, 11.
4. Influential factors analysis of blasting vibration attenuation law;Li;J. Wuhan. Univ. Technol.,2005
5. Assessment of structure damage to blasting induced ground motions;Ma;Eng. Struct.,2000